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相关概念视频

Types of Cement II01:22

Types of Cement II

109
Portland blast-furnace cement is made by blending Portland cement clinker with granulated blast-furnace slag, which accounts for 25 to 65 percent of the cement's weight. Despite its similarities to ordinary Portland (Type I) cement in terms of fineness and setting times, its early strength is lower, though it achieves comparable strength later on. It's particularly suited for mass concrete structures and marine environments due to its lower heat of hydration and superior sulfate...
109
Hydration of Cement01:24

Hydration of Cement

237
Hydration of cement is a chemical reaction between cement particles and water. This process occurs primarily through two mechanisms: through-solution and topochemical. In the through-solution process, anhydrous compounds dissolve into their constituents, hydrates form in the solution, and then precipitate from the supersaturated solution. The topochemical process involves solid-state reactions at the cement particle surface. The through-solution process dominates the topochemical process at the...
237
Types of Cement I01:21

Types of Cement I

125
Portland cement comes in several types, each with distinct properties and applications based on their chemical composition and hydration characteristics:
Type I (Ordinary Portland Cement) is widely used for general construction where special properties are not required. It has moderate sulfate resistance and heat of hydration.
Type II (Modified Cement) offers moderate resistance to sulfate attack and a lower rate of heat development compared to Type I. It is suitable for structures in...
125
Portland Cement01:21

Portland Cement

221
Portland cement is the essential binding ingredient in concrete, made from finely ground materials including lime, iron, silica, and alumina. Lime is derived primarily from limestone, marble, marl, seashells, and clays, which also supply iron and alumina, while silica is sourced from sand, chalk, and bauxite. Contemporary manufacturing of Portland cement is a significant source of carbon dioxide emissions, prompting research into reducing its content in concrete through alternative...
221
Additives and Fillers in Concrete01:29

Additives and Fillers in Concrete

96
Additives and fillers are integral to enhancing the properties of concrete. Pozzolans and blast-furnace slag are additives or admixtures due to their reactions with calcium hydroxide released during cement hydration. Fillers, which are finely ground and similar in fineness to Portland cement, improve concrete attributes such as workability density, and reduce capillary bleeding or cracking. Some fillers possess hydraulic properties or participate in benign reactions within the cement paste.
The...
96
Pozzolans01:21

Pozzolans

112
Pozzolans are siliceous or aluminous materials blended with Portland cement. They interact with the calcium hydroxide produced during the hydration of Portland cement and contribute to improved strength and durability of concrete. The pozzolanic activity, a measure of a pozzolan's effectiveness, is typically assessed using the strength activity index, as defined in ASTM C 618-93, which calculates the ratio of the compressive strength of cement mixtures with and without pozzolan.
Fly ash is...
112

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功能化的石墨烯基材料用于水泥应用.

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化学改性石墨烯基材料 (GBM) 提高了混凝土的强度. 功能化的GBM可提高砂的屈曲和压力强度,分别高达17%和30%,克服分散的挑战.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 土木工程 土木工程是指土木工程.
  • 纳米技术纳米技术

背景情况:

  • 石墨烯基材料 (GBM) 为水泥复合材料提供优越的机械性能和耐久性.
  • 在水性水泥矩阵中有效分散GBM对于实现其全部潜力至关重要.
  • GBM 的有限分散性阻碍了它们在混凝土中的应用.

研究的目的:

  • 为了解决石墨烯基材料在水性环境中的有限分散性.
  • 用水友性亚利硫酸盐基来化学功能化石墨烯结构.
  • 评估改性GBM对砂机械性能的影响.

主要方法:

  • 单层和几层石墨烯结构的化学功能化.
  • 将修改后的GBM纳入砂样本.
  • 改性砂样本的屈曲和压力强度的测试.

主要成果:

  • 修改后的GBM在水性介质中显示出更好的分散性.
  • 用修改GBM的砂样本显示,曲强度增加了高达17%.
  • 用修改GBM的砂样本显示压力强度增加了高达30%.

结论:

  • 化学功能化增强了GBM在水泥基质的分散性.
  • 修改后的GBM显著提高了混凝土的机械性能.
  • 这种方法为在高性能混凝土中使用GBM提供了一种可行的方法.